CN203110120U - Automated machine assembly line device of waste residue cement foam batten or building block - Google Patents

Abstract

Provided is an automated machine assembly line device of a waste residue cement foam batten or a building block. The automated machine assembly line device comprises a burdening stirring zone, a pouring leveling zone, a solidification maintaining zone, a demoulding stacking zone and a molded product stacking zone. The burdening stirring zone is provided with an automatic feeding device and an automatic stirring device, a shuttle vehicle is arranged below the automatic stirring device, a guide rail is connected below the shuttle vehicle, and a machining mould is placed on the shuttle vehicle. The solidification maintaining zone comprises a water inlet pipe, one end of the water inlet pipe is connected with a tap water faucet, the other end of the water inlet pipe is respectively connected with a water softening device and a decompression water tank, the decompression water tank is connected with a return pipe and a horizontal boiler through a pipeline, an exhaust valve is arranged on the horizontal boiler, the horizontal boiler is connected with a circulating water pump through a pipeline, the circulating water pump is connected with a check valve, and the circulating water pump enters a kiln body of a temperature control curing kiln through a pipeline The demoulding stacking zone comprises a full-automatic hydraulic demoulding mechanism and an automatic stacker.

Description

The automated machine pipelining equipment of waste residue cement foam strip plate or building block

Technical field

The utility model relates to the automated machine pipelining equipment of waste residue cement foam strip plate or building block, belongs to building material production facility.

Background technology

Adopt cement, blowing agent to mix with waste residues such as stone flour, stone nitre, industrial residue, slag, ore deposit tailings, gangue, flyash or haydites, processing building slat or building block are to save land resource, reduce a kind of good method of cost of material.But prior art mostly is manual semi-automatic production or semi-automatic upgrading class, does not all have large-scale production equipment, and the shortcoming of its existence is:

1. manual semi-automatic production or semi-automatic upgrading class, mechanization is few, required workman is many, labor strength is big, and artificial do manual work not meticulous, the unstable product quality of producing;

2. there to be semi-automatic mould little, mould is a brick one mould, yields poorly;

3. at northern area particularly in winter, winter is too cold, and the product (batten or building block) that cast is good is difficult for solidifying, thereby can't produce in winter;

4. owing to the temperature instability, demould time is uncertain, and is die needed many, increased the cost of investment of mould;

5. because the temperature instability, demould time is slow, and product curing time in mould of moulding is not long for all, and mould needs the occupied ground area big.

Summary of the invention

The purpose of this utility model is in order to overcome the shortcoming that prior art exists, a kind of automatic blanking is provided, the automatic transport mould, product is kept optimum temperature and humidity when maintenance, shorten curing time, reduce place and mould, production is not subject to seasonal restrictions, automatic demoulding and piling form the waste residue cement foam strip plate of an automatic assembly line production or the automated machine pipelining equipment of building block.

The technical scheme of the automated machine pipelining equipment of the utility model waste residue cement foam strip plate or building block is: it is characterized in that comprising the batching stirring area; the cast clear area; solidify the maintenance area; demoulding piling district and shaped article laydown area; described batching stirring area arranges automatic charging device and self-poking arrangement; the self-poking arrangement below arranges ferry bus; described ferry bus comprises the ferry bus flat board; installation mold track on the ferry bus flat board; square steel and ferry bus roller are installed under the ferry bus flat board; connect guide rail under the ferry bus; described guide rail comprises underframe; underframe is fixed by bolt and ground; erector's font guide rail on underframe; I-shaped guide rail contacts with the ferry bus roller; die tracks at ferry bus is placed processing mold; described processing mold comprises the four sides deckle board; under the deckle board of four sides roller is installed; roller contacts with die tracks; transverse partition panel and the longitudinal divider of block are set in the deckle board of four sides; it is die cavity between transverse partition panel and the longitudinal divider; divide into the bottom set plate at die cavity; be shaped on convex tendon and groove at longitudinal divider and four sides deckle board; the described maintenance area of solidifying comprises water inlet pipe; connection water tap of water inlet pipe; the water inlet pipe other end connects softening hydrophone respectively and conciliates the setting-out case; the decompress(ion) water tank connects return duct and horizontal boiler by the road; air bleeding valve is installed on the horizontal boiler; horizontal boiler connects water circulating pump by the road; water circulating pump connects check-valves; water circulating pump enters in the kiln body of temperature control curing kilns by the road; in the described kiln body hot-water line and sparge pipe are set; every one of hot-water line arranges the hot-water line water inlet control valve; the other end arranges the hot-water line outlet water control valve; every one of sparge pipe arranges the sparge pipe water inlet control valve; the other end arranges the sparge pipe outlet water control valve; the hot-water line water inlet control valve is connected water inlet master control valve with the sparge pipe water inlet control valve; the hot-water line outlet water control valve is connected water outlet master control valve with the sparge pipe outlet water control valve; water outlet master control valve connects return duct; screen pack is set on the return duct and opens and closes valve; described demoulding piling district comprises fully automatic hydraulic mould emptier and automatic stacking machine; described fully automatic hydraulic mould emptier comprises the four sides framework; be shaped at the bottom of the frame under the framework of four sides; hydraulic cylinder is set at the bottom of frame; hydraulic tray is set on the hydraulic cylinder; the piston rod of hydraulic cylinder contacts below hydraulic tray; at hydraulic tray holder tool top is installed; contact below the product of moulding in holder tool top and the processing mold; described automatic stacking machine comprises support frame; slideway is installed on the support frame; slide plate is installed on the slideway; left and right sides hydraulic cylinder is installed under the support frame; left and right sides hydraulic cylinder drives slide plate and moves; the stacking machine principal arm is installed in slide plate; be equipped with lifting hydraulic cylinder and rotating hydraulic cylinder in the stacking machine principal arm; under the stacking machine principal arm, rotor plate is installed; the telescopic hydraulic cylinder of gripping apparatus is installed under the rotor plate; on the piston rod of telescopic hydraulic cylinder gripping apparatus is installed, telescopic hydraulic cylinder drives gripping apparatus and contacts with product after the demoulding.

The utility model discloses the automated machine pipelining equipment of a kind of waste residue cement foam strip plate or building block, at first with cement, blowing agent and stone flour, stone nitre, industrial residue, slag, the ore deposit tailings, gangue, waste residue such as flyash or haydite adds that some specific batchings put into the batching stirring area according to a certain percentage, by mixer (concrete structure of mixer is prior art) it is stirred, after stirring, open mixer, processing mold moves to the mixer below, described processing mold mainly contains the four sides frame, the length of described four sides frame is 600mm-2400mm, height is 600mm, wide is 600mm-2400mm, transverse partition panel and longitudinal divider are set in the deckle board of four sides, transverse partition panel and vertical shelf that divides are divided into 12-48 die cavitys with the four sides frame, the height of each die cavity is 600mm, long is 240mm, wide is 100mm-320mm, control the size of product, size, divide into the bottom set plate at die cavity, make a secondary mould once can make 12-48 products by transverse partition panel and longitudinal divider, save the manufacturing expense of mould amount and mould, longitudinal divider has two kinds: 1. longitudinal divider makes the product four sides smooth for dull and stereotyped; 2. be shaped on convex tendon and groove on longitudinal divider and the four sides deckle board; make product one side form convex tendon and groove; it is easy for installation when product uses; improve efficiency of construction; under the mould roller is arranged; mould moves easily; mixer is poured into a mould mould; the mould of filling with material moves to the cast clear area to the right by computer program control ferry bus on guide rail; in this zone, by the workman processing mold is put down slurry; computer program continuation control ferry bus moves right to solidifying the maintenance area then; by manually the processing mold on the ferry bus being pushed in the temperature control curing kilns of solidifying the maintenance area; during temperature control curing kilns work; the water of water tap is transported in the softening hydrophone through water inlet pipe; reduce hardness of water; again water is delivered to the decompress(ion) water tank; reduce water tap and carry the hydraulic pressure of coming; the water of decompress(ion) water tank is delivered to horizontal boiler then; when by horizontal boiler water being heated to 80 ° of left and right sides; open air bleeding valve; water circulating pump and check-valves; air bleeding valve is discharged vapours; reduce the pressure in the horizontal boiler; water circulating pump work is delivered to into water master control valve with hot water through check-valves then; open into water master control valve; hot-water line water inlet control valve and sparge pipe water inlet control valve; delivery is in hot-water line and sparge pipe; hot water distribute heat in the hot-water line is controlled the lifting kiln temperature; make kiln temperature control about 40 °; if water temperature descends; then open the hot-water line outlet water control valve, allow the low water of temperature flow out, the water that temperature is high flows into; the current that temperature is low flow in the horizontal boiler again through return duct and heat; obtain recyclingly, cut the waste, and at the wall of kiln body sparge pipe is installed; when humidity in the kiln descends; spray fog by sparge pipe in the kiln body, make that humidity arrives humidity about 95% in the kiln, the temperature and humidity in the temperature control curing kilns reaches this condition following time; mould is sent in the special temperature control curing kilns; when the mould vehicle for the treatment of curing kilns is piled, only need maintenance 4-6 hour, product is the curable demoulding strength that reaches just; shorten curing time; reduce the use amount of mould, thereby reduced the input cost of mould, improve output; solved northern area winter because of be cold can not ordinary production a difficult problem; be not subjected to the restriction in season, the quality of converted products is guaranteed, after the products solidifying moulding in the mould; again mould is delivered to demoulding piling district; in demoulding piling district, the piston rod by fully automatic hydraulic mould emptier hydraulic cylinder upwards promotes hydraulic tray earlier, and hydraulic tray drives holder tool top and moves up; holder tool top length and width are big or small consistent with shaped article; when holder tool top moves up, shaped article is upwards released mould, when the last plane parallel of product bottom and mould; drive gripping apparatus by the telescopic hydraulic cylinder of automatic stacking machine and inwardly catch the product deviate from; drive the stacking machine principal arm by lifting hydraulic cylinder then and move up, drive slide plate and stacking machine principal arm to a side shifting by left and right sides hydraulic cylinder again, make the stacking machine principal arm move to the top of pallet; lifting hydraulic cylinder drives the stacking machine principal arm and moves down; make product and contact above the pallet, it is protruding that telescopic hydraulic cylinder drives gripping apparatus then, and product is placed on the pallet; finish carrying; this moment the stacking machine principal arm again resile prepare to grasp product next time, and this time the gripping apparatus of stacking machine principal arm after grasping product, by 90 ° of rotating hydraulic cylinder driven rotary; product is added to above the product that has set again; finish automatic stacking, at last drive fork truck by the workman pallet of the good product of piling is transported to the shaped article laydown area, finish institute in steps.The automated machine pipelining equipment of this programme waste residue cement foam strip plate or building block, 1, temperature control curing kilns characteristic sets according to theing cement solidifies optimum temperature and humidity, solved because of the temperature difference and produced the difficult problem that the unstable and North China of product can not produce winter, but reached spring, summer, autumn and winter ordinary production all, improved output and production efficiency; 2, formed product speeds up, and demould time shortens, and has reduced the input cost of mould; 3, mould a multi-cavity mold, a pair can be made a plurality of products simultaneously, saves the mould consumption, has improved the utilization rate of mould; 4, mechanical automation degree height, labor strength is little, reduces cost of labor, need not loaded down with trivial details carrying, on-line automatic hydraulic ejection, transportation automatically, percent defective is low; 5, with short production cycle, occupied ground is few, has saved large quantities of airings place (mould is more many, and the place that maintenance takies is more big), and semi-automatic relatively saving 30%-40% takes up an area of.

The automated machine pipelining equipment of the utility model waste residue cement foam strip plate or building block, the outer wall of described four sides deckle board is installed angle steel.Angle steel has been arranged, the four sides deckle board has been played reinforcement effect, avoided the four sides deckle board concavo-convex phenomenon to occur.Described four sides deckle board is connected to each other shaping for the four sides deckle board of continuous one or by four deckle boards.Described kiln body entry and exit and inwall arrange insulation envelope cloth.Insulation envelope cloth has been arranged, can reduce distributing of kiln intimate heat, guaranteed the temperature in the kiln body.The long L of described kiln body is 40m-150m, and high H is 1.2m, and wide S is 1.8-2.7m, and 18-27 hot-water lines and 2 sparge pipes are set in the kiln body.The kiln body of different size can be set according to place and client's needs, every 100mm, arrange the thick hot-water line of 120mm one on the interior ground of kiln body, temperature can reach about 40 ° in the kiln body thereby make.2-8 group kiln bodies are set in the described temperature control curing kilns.4-8 hydraulic cylinders are set at the bottom of the described frame.Can hydraulic cylinder be set according to length and the width of four sides framework, guarantee that hydraulic tray can be by jack-up at the uniform velocity.

Description of drawings

Fig. 1 is the layout block diagram of the automated machine pipelining equipment of waste residue cement foam strip plate or building block;

Fig. 2 is the schematic perspective view of processing mold;

Fig. 3 is the schematic top plan view of processing mold;

Fig. 4 is the schematic perspective view of fully automatic hydraulic mould emptier;

Fig. 5 is the schematic cross-section of fully automatic hydraulic mould emptier;

Fig. 6 is the structural representation that solidifies the maintenance area;

Fig. 7 is the schematic cross-section of temperature control curing kilns;

Fig. 8 is the schematic perspective view of automatic stacking machine;

Fig. 9 is the schematic perspective view of guide rail;

Figure 10 is the schematic perspective view of ferry bus.

The specific embodiment

The utility model relates to the automated machine pipelining equipment of a kind of waste residue cement foam strip plate or building block; as Fig. 1-shown in Figure 10; it is characterized in that: comprise batching stirring area 101; cast clear area 102; solidify maintenance area 103; demoulding piling district 104 and shaped article laydown area 105; described batching stirring area arranges automatic charging device and self-poking arrangement; the self-poking arrangement below arranges ferry bus; described ferry bus comprises ferry bus flat board 1; installation mold track 11 on the ferry bus flat board; square steel 12 and ferry bus roller 13 are installed under the ferry bus flat board; connect guide rail under the ferry bus; described guide rail comprises underframe 2; underframe is fixed by bolt 21 and ground; erector's font guide rail 22 on underframe 2; I-shaped guide rail contacts with ferry bus roller 13; die tracks 11 at ferry bus is placed processing mold; described processing mold comprises four sides deckle board 3; under the deckle board of four sides roller 31 is installed; roller contacts with die tracks 11; transverse partition panel 32 and the longitudinal divider 33 of block are set in the deckle board of four sides; it is die cavity 34 between transverse partition panel and the longitudinal divider; divide into bottom set plate 35 at die cavity; be shaped on convex tendon 36 and groove 37 at longitudinal divider 33 and four sides deckle board 3; the described maintenance area of solidifying comprises water inlet pipe 4; connection water tap of water inlet pipe; the water inlet pipe other end connects softening hydrophone 41 respectively and conciliates setting-out case 42; the decompress(ion) water tank connects return duct 43 and horizontal boiler 44 by the road; air bleeding valve 45 is installed on the horizontal boiler; horizontal boiler connects water circulating pump 46 by the road; water circulating pump connects check-valves 47; water circulating pump enters in the kiln body of temperature control curing kilns by the road; hot-water line 49 and sparge pipe 50 are set in the described kiln body; every one of hot-water line arranges hot-water line water inlet control valve 51; the other end arranges hot-water line outlet water control valve 52; every 50 1 of sparge pipe arranges sparge pipe water inlet control valve 53; the other end arranges sparge pipe outlet water control valve 54; hot-water line water inlet control valve 51 is connected water inlet master control valve 55 with sparge pipe water inlet control valve 53; hot-water line outlet water control valve 52 is connected water outlet master control valve 56 with sparge pipe outlet water control valve 54; water outlet master control valve connects return duct 43; screen pack 57 is set on the return duct and opens and closes valve 58; described demoulding piling district comprises fully automatic hydraulic mould emptier and automatic stacking machine; described fully automatic hydraulic mould emptier comprises four sides framework 6; the four sides is shaped on (61) at the bottom of the frame under the framework; hydraulic cylinder 62 is set at the bottom of frame; hydraulic tray 63 is set on the hydraulic cylinder; the piston rod 64 of hydraulic cylinder contacts below hydraulic tray 63; at hydraulic tray 63 holder tool top 65 is installed; contact below the product of moulding in holder tool top and the processing mold; described automatic stacking machine comprises support frame 7; slideway 71 is installed on the support frame; slide plate 72 is installed on the slideway; left and right sides hydraulic cylinder 73 is installed under the support frame; left and right sides hydraulic cylinder drives slide plate 72 and moves; stacking machine principal arm 74 is installed in slide plate; be equipped with lifting hydraulic cylinder and rotating hydraulic cylinder in the stacking machine principal arm; 74 times rotor plate 75 is installed at the stacking machine principal arm; the telescopic hydraulic cylinder 76 of gripping apparatus is installed under the rotor plate; gripping apparatus 77 is installed on the piston rod of telescopic hydraulic cylinder, and telescopic hydraulic cylinder 76 drives gripping apparatus 77 and contacts with product after the demoulding.At first with cement, blowing agent and stone flour, stone nitre, industrial residue, slag, the ore deposit tailings, gangue, waste residue such as flyash or haydite add some specific batchings put into according to a certain percentage the batching stirring area 101, by mixer (concrete structure of mixer is prior art) it is stirred, after stirring, open mixer, processing mold moves to the mixer below, described processing mold mainly contains four sides frame 3, the length of described four sides frame is 600mm-2400mm, height is 600mm, wide is 600mm-2400mm, transverse partition panel 32 and longitudinal divider 33 are set in the deckle board of four sides, transverse partition panel and vertical shelf that divides are divided into 12-48 die cavitys 34 with four sides frame 3, the height of each die cavity is 600mm, long is 240mm, wide is 100mm-320mm, control the size of product, size, divide into bottom set plate 35 at die cavity, make a secondary mould once can make 12-48 products by transverse partition panel 32 and longitudinal divider 33, save the manufacturing expense of mould amount and mould, longitudinal divider 33 has two kinds: 1. longitudinal divider makes the product four sides smooth for dull and stereotyped; 2. be shaped on convex tendon 36 and groove 37 on longitudinal divider and the four sides deckle board; make product one side form convex tendon and groove; it is easy for installation when product uses; improve efficiency of construction; roller 31 is arranged under the mould; mould moves easily; mixer is poured into a mould mould; the mould of filling with material moves to the cast clear area to the right by computer program control ferry bus on guide rail; in this zone, by the workman processing mold is put down slurry; computer program continuation control ferry bus moves right to solidifying maintenance area 103 then; by manually the processing mold on the ferry bus being pushed in the temperature control curing kilns of solidifying maintenance area 103; during temperature control curing kilns work; the water of water tap is transported in the softening hydrophone 41 through water inlet pipe 4; reduce hardness of water; again water is delivered to decompress(ion) water tank 42; reduce water tap and carry the hydraulic pressure of coming; the water of decompress(ion) water tank is delivered to horizontal boiler 44 then; when by horizontal boiler water being heated to 80 ° of left and right sides; open air bleeding valve 45; water circulating pump 46 and check-valves 47; air bleeding valve 45 is discharged vapours; reduce the pressure in the horizontal boiler 44; water circulating pump 46 work are delivered to into water master control valve 55 with hot water through check-valves 47 then; open into water master control valve 55; hot-water line water inlet control valve 51 and sparge pipe water inlet control valve 53; delivery is in hot-water line 49 and sparge pipe 50; hot water distribute heat in the hot-water line is controlled the lifting kiln temperature; make kiln temperature control about 40 °; if water temperature descends; then open hot-water line outlet water control valve 52, allow the low water of temperature flow out, the water that temperature is high flows into; the current that temperature is low flow into heating in the horizontal boiler 44 again through return duct 43; obtain recyclingly, cut the waste, and at the wall of kiln body 48 sparge pipe 50 is installed; when humidity in the kiln descends; spray fog by sparge pipe in the kiln body, make that humidity arrives humidity about 95% in the kiln, the temperature and humidity in the temperature control curing kilns reaches this condition following time; mould is sent in the special temperature control curing kilns; when the mould vehicle for the treatment of curing kilns is piled, only need maintenance 4-6 hour, product is the curable demoulding strength that reaches just; shorten curing time; reduce the use amount of mould, thereby reduced the input cost of mould, improve output; solved northern area winter because of be cold can not ordinary production a difficult problem; be not subjected to the restriction in season, the quality of converted products is guaranteed, after the products solidifying moulding in the mould; again mould is delivered to demoulding piling district 104; in demoulding piling district, the piston rod 64 by fully automatic hydraulic mould emptier hydraulic cylinder 62 upwards promotes hydraulic tray 63 earlier, and hydraulic tray drives holder tool top 65 and moves up; holder tool top length and width are big or small consistent with shaped article; when holder tool top moves up, shaped article is upwards released mould, when the last plane parallel of product bottom and mould; drive gripping apparatus 77 by the telescopic hydraulic cylinder 76 of automatic stacking machine and inwardly catch the product deviate from; drive stacking machine principal arm 74 by lifting hydraulic cylinder then and move up, drive slide plates 72 and stacking machine principal arm 74 to a side shifting by left and right sides hydraulic cylinder 73 again, make the stacking machine principal arm move to the top of pallet; lifting hydraulic cylinder drives the stacking machine principal arm and moves down; make product and contact above the pallet, telescopic hydraulic cylinder 76 drive gripping apparatus 77 are protruding then, and product is placed on the pallet; finish carrying; this moment stacking machine principal arm 74 again resile prepare to grasp product next time, and this time the gripping apparatus 77 of stacking machine principal arm after grasping product, by 90 ° of rotating hydraulic cylinder driven rotary; product is added to above the product that has set again; finish automatic stacking, at last drive fork truck by the workman pallet of the good product of piling is transported to shaped article laydown area 105, finish institute in steps.The automated machine pipelining equipment of this programme waste residue cement foam strip plate or building block, 1, temperature control curing kilns characteristic sets according to theing cement solidifies optimum temperature and humidity, solved because of the temperature difference and produced the difficult problem that the unstable and North China of product can not produce winter, but reached spring, summer, autumn and winter ordinary production all, improved output and production efficiency; 2, formed product speeds up, and demould time shortens, and has reduced the input cost of mould; 3, mould a multi-cavity mold, a pair can be made a plurality of products simultaneously, saves the mould consumption, has improved the utilization rate of mould; 4, mechanical automation degree height, labor strength is little, reduces cost of labor, need not loaded down with trivial details carrying, on-line automatic hydraulic ejection, transportation automatically, percent defective is low; 5, with short production cycle, occupied ground is few, has saved large quantities of airings place (mould is more many, and the place that maintenance takies is more big), and semi-automatic relatively saving 30%-40% takes up an area of.The outer wall of described four sides deckle board 3 is installed angle steel 38.Angle steel 38 has been arranged, four sides deckle board 3 has been played reinforcement effect, avoided the four sides deckle board concavo-convex phenomenon to occur.Described four sides deckle board 3 is connected to each other shaping for the four sides deckle board of continuous one or by four deckle boards.Described kiln body 48 entry and exit and inwall arrange insulation envelope cloth 59.Insulation envelope cloth 59 has been arranged, can reduce distributing of kiln body 48 interior heats, guaranteed the temperature in the kiln body.Described kiln body 48 long L are 40m-150m, and high H is 1.2m, and wide S is 1.8-2.7m, and 18-27 hot-water lines 49 and 2 sparge pipes 50 are set in the kiln body.The kiln body 48 of different size can be set according to place and client's needs, every 100mm, arrange the thick hot-water line 49 of 120mm one on the interior ground of kiln body, temperature can reach about 40 ° in the kiln body 48 thereby make.2-8 group kiln bodies 48 are set in the described temperature control curing kilns.4-8 hydraulic cylinders 62 are set on 61 at the bottom of the described frame.Can hydraulic cylinder 62 be set according to length and the width of four sides framework 6, guarantee that hydraulic tray 63 can be by jack-up at the uniform velocity.

Claims (7)

1. the automated machine pipelining equipment of waste residue cement foam strip plate or building block; it is characterized in that: comprise batching stirring area (101); cast clear area (102); solidify maintenance area (103); demoulding piling district (104) and shaped article laydown area (105); described batching stirring area arranges automatic charging device and self-poking arrangement; the self-poking arrangement below arranges ferry bus; described ferry bus comprises ferry bus flat board (1); installation mold track (11) on the ferry bus flat board; square steel (12) and ferry bus roller (13) are installed under the ferry bus flat board; connect guide rail under the ferry bus; described guide rail comprises underframe (2); underframe is fixed by bolt (21) and ground; go up erector's font guide rail (22) at underframe (2); I-shaped guide rail contacts with ferry bus roller (13); die tracks (11) at ferry bus is placed processing mold; described processing mold comprises four sides deckle board (3); under the deckle board of four sides roller (31) is installed; roller contacts with die tracks (11); transverse partition panel (32) and the longitudinal divider (33) of block are set in the deckle board of four sides; it is die cavity (34) between transverse partition panel and the longitudinal divider; divide into bottom set plate (35) at die cavity; be shaped on convex tendon (36) and groove (37) at longitudinal divider (33) and four sides deckle board (3); the described maintenance area of solidifying comprises water inlet pipe (4); connection water tap of water inlet pipe; the water inlet pipe other end connects softening hydrophone (41) respectively and conciliates setting-out case (42); the decompress(ion) water tank connects return duct (43) and horizontal boiler (44) by the road; air bleeding valve (45) is installed on the horizontal boiler; horizontal boiler connects water circulating pump (46) by the road; water circulating pump connects check-valves (47); water circulating pump enters in the kiln body (48) of temperature control curing kilns by the road; hot-water line (49) and sparge pipe (50) are set in the described kiln body; every one of hot-water line arranges hot-water line water inlet control valve (51); the other end arranges hot-water line outlet water control valve (52); every (50) one of sparge pipe arranges sparge pipe water inlet control valve (53); the other end arranges sparge pipe outlet water control valve (54); hot-water line water inlet control valve (51) is connected water inlet master control valve (55) with sparge pipe water inlet control valve (53); hot-water line outlet water control valve (52) is connected water outlet master control valve (56) with sparge pipe outlet water control valve (54); water outlet master control valve connects return duct (43); screen pack (57) is set on the return duct and opens and closes valve (58); described demoulding piling district comprises fully automatic hydraulic mould emptier and automatic stacking machine; described fully automatic hydraulic mould emptier comprises four sides framework (6); the four sides is shaped on (61) at the bottom of the frame under the framework; hydraulic cylinder (62) is set at the bottom of frame; hydraulic tray (63) is set on the hydraulic cylinder; the piston rod of hydraulic cylinder (64) contacts below hydraulic tray (63); at hydraulic tray (63) holder tool top (65) is installed; contact below the product of moulding in holder tool top and the processing mold; described automatic stacking machine comprises support frame (7); slideway (71) is installed on the support frame; slide plate (72) is installed on the slideway; left and right sides hydraulic cylinder (73) is installed under the support frame; it is mobile that left and right sides hydraulic cylinder drives slide plate (72); stacking machine principal arm (74) is installed in slide plate; be equipped with lifting hydraulic cylinder and rotating hydraulic cylinder in the stacking machine principal arm; at stacking machine principal arm (74) rotor plate (75) is installed down; the telescopic hydraulic cylinder (76) of gripping apparatus is installed under the rotor plate; gripping apparatus (77) is installed on the piston rod of telescopic hydraulic cylinder, and telescopic hydraulic cylinder (76) drives gripping apparatus (77) and contacts with product after the demoulding.

2. the automated machine pipelining equipment of waste residue cement foam strip plate as claimed in claim 1 or building block is characterized in that: the outer wall installation angle steel (38) of described four sides deckle board (3).

3. the automated machine pipelining equipment of waste residue cement foam strip plate as claimed in claim 1 or building block is characterized in that: described four sides deckle board (3) is for linking to each other the four sides deckle board of one or be connected to each other shaping by four deckle boards.

4. the automated machine pipelining equipment of waste residue cement foam strip plate as claimed in claim 1 or building block is characterized in that: described kiln body (48) entry and exit and inwall arrange insulation envelope cloth (59).

5. the automated machine pipelining equipment of waste residue cement foam strip plate as claimed in claim 1 or building block, it is characterized in that: the long L of described kiln body (48) is 40m-150m, high H is 1.2m, and wide S is 1.8-2.7m, and 18-27 hot-water lines (49) and 2 sparge pipes (50) are set in the kiln body.

6. the automated machine pipelining equipment of waste residue cement foam strip plate as claimed in claim 1 or building block is characterized in that: 2-8 group kiln bodies (48) are set in the described temperature control curing kilns.

7. the automated machine pipelining equipment of waste residue cement foam strip plate as claimed in claim 1 or building block is characterized in that: 4-8 hydraulic cylinders (62) are set on (61) at the bottom of the described frame.

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